PHYSICAL GEOGRAPHY General Information By understanding the environment we can understand why one place is different or the same as another. See handout
Geomorphology Geo --Land morph --Change ology --Study of
I. Definition A. The study of the Earth s landforms and the changes to those forms.
B. Two parts: 1. Form--shape of the surface 2. Structure-- materials the surface is made of.
C. Lithosphere 1. Made up of the Earth s crust and solid upper mantle. 2. Broken into a number of tectonic plates.
II. Landforms--the natural shape of the land-- mountains (mts.), mt. ranges, plains, hills, plateaus, etc.
(We use these terms loosely depending on where we live and our experiences.)
A. Geographers use slope, relief and elevation to define landforms
1. Slope--degree of variation of a surface from the horizontal or slant of the land. steep slope gentle slope
Gradient-- steepness
2. Relief--difference between the highest and lowest points. 6000 1000 5000
Highest point Lowest point
3. Elevation--height above or depth below sea level 2000 Ocean 0
Height above sea level sea level
Why don t we call it elevation sickness? Relate this phenomena to the Spanish settlement of Peru. Also, could you live in Tibet? What about athletes in Colorado? Think about why the Olympic camps are in Colorado. What is altitude sickness? A collection of symptoms, including shortness of breath, headache, and nosebleed, brought on by decreased oxygen in the atmosphere, such as that encountered at high altitudes. What is altitude? The height of a thing above a reference level, especially above sea level or above the earth's surface. Approaching Denali Pass
Mount Everest 8,848 meters (29,028 feet)
The Mariana Trench is 1,554 miles long and averages 44 miles wide. Within it, about 210 miles southwest of Guam, lies the deepest known point on Earth. Named the Challenger Deep for the British survey ship Challenger II that located it in 1951, this underwater gorge plunges to a depth of nearly 7 miles! It is deeper than Mt. Everest is tall. [29,035 feet app. 5 ½ miles]
Topographic maps are a representation of the relief and elevation of an area Can you identify peaks and valleys?
B. Using slope, relief, and elevation we can define the 4 basic kinds of landforms-- Mts., Plains, Hills, and Plateaus
III. Formation of Landforms A. Two Forces
1. Tectonic Forces-- forces from within the Earth-- building up or raising up of the earth.
Based on the theory of plate tectonics that started in the 1960 s.
According to the continental drift theory, the super-continent Pangaea began to break up about 225-200 million years ago, eventually fragmenting into the continents as we know them today.
Two processes a. Diastrophism-- raising up of the surface b. Vulcanism-- movement of molten rock to the surface
2. Gradational Forces-- originate outside the earth--depositing or smoothing down
Two processes a. Erosion b. Deposition
Agents causing erosion and deposition 1) Running Water 2) Wind 3) Ice/Glaciers 4) Waves/Currents of the Sea
IV. Landforms A. Tectonic Landforms 1. Three basic movements
a. Compressional
1) folding
Folding of the Earth
2) thickening
3) thrust faulting
b. Tensional
1) Rifting
2) Thinning
3) Down Dropping (Horst/Graben)
Horst and Graben
Horst/Graben along the Wasatch Fault in central Utah
c. Strike-slip
Along these fault lines you have earthquakes occurring and volcanic action occurring. The basic landforms that form are mountains and valleys.
Earthquakes
2. Types of Tectonic Boundaries There are four basic types of plate boundaries that result from the movement of the plates.
a. Divergent boundaries one or two plates are splitting apart. New crust is being formed from the center of Earth, causing the plate to spread. Rift valleys are one example of this type of place movement.
b. Convergent boundaries two plates are colliding, forcing one plate to dip down underneath another one. The plate that is folding under has old crust that is being destroyed while the plate on top has mountains and volcanoes being formed. In the ocean these appear as trenches.
c. Transform boundaries plates are sliding against each other causing large faultlines and mountains to form. Here the crust is neither created nor destroyed.
d. Plate boundary zones plate boundaries appear zigzagged. Scientists believe there are actually microplates in these areas but it is unclear what effect these zones have on the physical environment.
3. Fault Landforms [a fault is a break in the Earth s surface.]
[You get different landforms depending on how fast, how long, how much tension, etc.; but basically you get mountains and valleys.]
4. Volcanic Landforms a. Volcanoes
b. Calderas
c. Cinder Cones
Computer Image of depth: Blue is the deepest and orange is the shallowest Topography of Crater Lake
B. Gradational Landforms 1. Made by Running Water
a. Valleys b. Canyons c. Badlands
d. Floodplain
e. Oxbow Lakes on the Kinabatangan River in Malaysia
f. Levees
Natural Levees
g. Deltas h. Etc.
2. Made by Wind a. Dunes
Star Dune in Morocco
Linear Dunes
b. Loess
3. Made by Glaciers a. Cirque b. Arete
c. Horn
d. Glacial troughs
e. Lakes 1) Tarns 2) Finger Lake 3) Pater Noster Lakes
f. Lateral Moraine g. End Moraine
h. Fjord i. etc.
4. Made by Waves and Currents a. Beaches
b. Sea Caves &Crevices
c. Barrier Islands
d. Lagoon e. Reef f. etc.
: Barrier to travel, communication, defense Rainmaker, scenery Reservoir, water source, minerals Poor accessibility Poor agriculture Source of destruction, : Fertile soils Irrigation water Mineral resources Source of destruction Easily accessible
What influence do landforms have on where people live? In your groups: 1. Explain where people live and where they do not. 2. Explain what physical features (not climate) might influence the distribution patterns for your assigned region.
North America Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}
South America Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}
Africa Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}
Europe Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}
Asia Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}
Oceania Population Density, 1995 UN adjusted data {Lambert Azimuthal Projection}